CN111623496B - Radiation air conditioner control system, control method and storage medium - Google Patents

Abstract

The invention discloses a radiation air conditioner control system, a control method and a storage medium; wherein, the control system includes: the system comprises a radiation air-conditioning system control panel, a fresh air machine control panel, a temperature controller assembly, gateway equipment and an indoor central control screen; the control panel of the radiation air-conditioning system is taken as a main node and is connected with the temperature controller assembly and the fresh air fan control panel to form a local control network of the radiation air-conditioning system; the method comprises the following steps that gateway equipment is used as a main node and is respectively connected with a radiation air-conditioning system control panel and an indoor central control screen to form a radiation air-conditioning intelligent control network; the radiation air conditioner local control network and the radiation air conditioner intelligent control network are mutually independent. In the invention, the local control network of the radiation air conditioner and the intelligent control network of the radiation air conditioner are mutually independent and do not influence each other, and the operation of the other control network cannot be influenced when the control terminal of any party fails, so that the basic operation of the radiation air conditioner system cannot be influenced.

Description

Radiation air conditioner control system, control method and storage medium

Technical Field

The invention relates to the technical field of radiation air-conditioning systems, in particular to a radiation air-conditioning control system, a control method and a storage medium.

Background

The radiation air-conditioning system has the advantages of energy conservation, no wind sensation, high comfort level, no noise, high cleanliness and the like, and is widely applied to civil buildings, especially residential buildings.

In order to meet the requirements of users, besides a centralized control mode, the radiation air-conditioning system is also provided with a temperature controller indoors, so that the users can adjust and control the radiation air-conditioning in the room according to the conditions of the users at home; however, once the thermostat is out of order, the user cannot control the radiation air conditioning system by himself, which affects the operation of the radiation air conditioning system.

In addition, the traditional radiation air-conditioning system lacks intelligent control and cannot meet the individual requirements of users.

Disclosure of Invention

In order to solve at least one technical problem, the invention provides a radiation air conditioner control system, a control method and a storage medium, and specifically, the technical scheme of the invention is as follows:

a radiant air conditioning control system comprising: the system comprises a radiation air-conditioning system control panel, a fresh air machine control panel, a temperature controller assembly, gateway equipment and an indoor central control screen; the radiation air-conditioning system control panel is used as a main node and is connected with the temperature controller assembly and the fresh air fan control panel to form a radiation air-conditioning local control network; the gateway equipment is taken as a main node and is respectively connected with the radiation air-conditioning system control panel and the indoor central control screen to form a radiation air-conditioning intelligent control network; the radiation air conditioner local control network and the radiation air conditioner intelligent control network are mutually independent.

Preferably, the gateway device is integrated with the in-home central control screen.

Preferably, the radiation air-conditioning control system further includes: an indoor router and an intelligent terminal; the intelligent terminal establishes wireless communication connection with the radiation air-conditioning system control panel through the indoor router and the gateway equipment to form a remote control network of the radiation air-conditioning system.

Preferably, the radiant air conditioning system control panel is integrated with the fresh air fan control panel, or the gateway device.

Preferably, the thermostat assembly comprises: at least one main temperature controller and/or a plurality of branch temperature controllers; wherein, each sub-temperature controller controls the temperature and/or humidity of the radiation air conditioner in the area where the sub-temperature controller is located; the main temperature controller is used for controlling the working modes of the fresh air machine and the indoor radiation air conditioner.

Preferably, the radiant air-conditioning control panel is integrated with the main thermostat.

Preferably, the plurality of sub-temperature controllers are respectively connected with the main temperature controller, or the plurality of sub-temperature controllers are connected with the main temperature controller after being connected in series; and the main temperature controller is connected to the radiation air-conditioning system control panel.

In addition, the invention also discloses a control method of the radiation air-conditioning system, which is applied to the radiation air-conditioning control system of the invention, and the control method of the radiation air-conditioning system comprises the following steps: a radiation air conditioner local control method and a radiation air conditioner intelligent control method; wherein:

the local control method of the radiation air conditioner comprises the following steps: the temperature controller component acquires a control instruction input by a user and transmits the control instruction to the radiation air-conditioning system control panel; after the control instruction is received by the radiation air-conditioning system control panel, controlling the radiation air-conditioning system according to the control instruction;

the intelligent control method of the radiation air conditioner comprises the following steps: the indoor central control screen receives an intelligent control instruction input by a user and transmits the intelligent control instruction to the radiation air-conditioning system control panel; the radiation air-conditioning system control panel analyzes the intelligent control instruction and determines working parameters of the radiation air-conditioning system; and the radiation air-conditioning system control panel performs corresponding parameter setting on the radiation air-conditioning system according to the working parameters.

Preferably, the intelligent control instruction is a system context control instruction; the analyzing of the intelligent control instruction by the radiation air-conditioning system control panel and the determining of the working parameters of the radiation air-conditioning system specifically comprise: the radiation air-conditioning system control panel searches parameter setting of the radiation air-conditioning system corresponding to the corresponding system scene according to the system scene control instruction; and the radiation air-conditioning system control panel performs corresponding parameter setting on the radiation air-conditioning system according to the searched parameter setting of the radiation air-conditioning system.

Preferably, the radiation air-conditioning control system further includes: an indoor router and an intelligent terminal; the intelligent terminal establishes wireless communication connection with the radiation air-conditioning system control panel through the indoor router and the gateway equipment; the intelligent control method of the radiation air conditioner further comprises the following steps: the intelligent terminal receives a control instruction input by a user and transmits the control instruction to the radiation air-conditioning system control panel through a wireless network; and after the control command is received by the radiation air-conditioning system control panel, executing the control command.

Preferably, the intelligent control method for the radiant air conditioner further comprises the following steps: the intelligent terminal acquires the travel information of a user and acquires the leaving time and the arriving time of the user according to the travel information; the intelligent terminal sends the leaving time and the arriving time of the user to the radiation air-conditioning system control panel; and the radiation air-conditioning system control panel intelligently controls the radiation air-conditioning system according to the leaving time and the arriving time of the user.

Preferably, the intelligent control method for the radiation air conditioner further includes: the control panel of the radiation air-conditioning system counts the historical usage record of the radiation air-conditioning system by a user; the radiation air-conditioning system control panel learns the historical usage record and obtains the usage habits of the user; the radiation air-conditioning system control panel intelligently controls the radiation air-conditioning system according to the use habits of the user.

Preferably, the intelligent control method for the radiant air conditioner further comprises the following steps: the control panel of the radiation air-conditioning system acquires weather forecast information through the intelligent terminal; the radiation air-conditioning system control panel generates a pre-cooling/pre-heating instruction of the radiation system according to the weather forecast information and the use habits of the user; and the radiation air-conditioning system control panel starts the radiation air-conditioning system in advance for precooling/preheating according to the precooling/preheating instruction.

Preferably, the control system of the radiation air-conditioning system is further in wired and/or wireless communication connection with the smart home; the intelligent control method of the radiation air conditioner further comprises the following steps: the radiation air-conditioning system control panel acquires the current working state of the smart home; the radiation air-conditioning system control panel acquires the current state information of a user according to the current working state of the smart home; and the radiation air-conditioning system control panel intelligently controls the radiation air-conditioning system according to the current state information of the user.

Finally, the invention also discloses a storage medium, which stores a plurality of instructions, which are executed by one or more processors to realize the steps of the control method of the radiation air-conditioning system.

The invention at least comprises the following beneficial effects:

(1) in the invention, the local control network of the radiation air conditioner and the intelligent control network of the radiation air conditioner are mutually independent and do not influence each other, and the operation of the other control network cannot be influenced when the control terminal of any party fails, so that the basic operation of the radiation air conditioner system cannot be influenced.

(2) The radiation air-conditioning control system is additionally provided with a remote control network of the radiation air-conditioning system, so that a user can remotely control the radiation air-conditioning system at an intelligent terminal, and the control mode is more flexible and convenient. Even if the user is not at home, the radiation air conditioner at home can be remotely controlled, and the user experience is greatly improved.

(3) The traditional radiation air-conditioning system control panel is generally arranged on an outdoor hydraulic module, and in the embodiment, the radiation air-conditioning system control panel is movably integrated on an indoor fresh air fan control panel, gateway equipment or a main temperature controller, so that the running stability and safety of the system are greatly improved, the control hardware specifications of all the equipment are more flexibly configured, and the system cost is optimized.

(4) By adopting the control method of the radiation air-conditioning system, the radiation air-conditioning system can be intelligently controlled, the individual requirements of users are met, and the use experience of the users is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

FIG. 1 is a system architecture diagram of one embodiment of a radiant air conditioning control system of the present invention;

FIG. 2 is a system architecture diagram of another embodiment of a radiant air conditioning control system of the present invention;

FIG. 3 is a system architecture diagram of another embodiment of a radiant air conditioning control system of the present invention;

FIG. 4a is a schematic view of a connection between a thermostat assembly and a radiant air conditioning system control panel according to the present invention;

FIG. 4b is a schematic view of a connection between a thermostat assembly and a radiant air conditioning system control panel according to the present invention;

FIG. 4c is a schematic view of another connection form between the thermostat assembly and the control panel of the radiant air conditioning system according to the present invention;

FIG. 5 is a system architecture diagram of another embodiment of a radiant air conditioning control system of the present invention;

FIG. 6 is a system architecture diagram of another embodiment of a radiant air conditioning control system of the present invention;

FIG. 7 is a system architecture diagram of another embodiment of a radiant air conditioning control system of the present invention;

fig. 8a is a flowchart of a local control method of a radiant air conditioner in an embodiment of the control method of the radiant air conditioning system of the present invention;

fig. 8b is a flowchart of an intelligent control method for a radiation air conditioner in the embodiment of the control method for a radiation air conditioning system of the present invention.

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth, such as particular system structures, techniques, etc. in order to provide a thorough understanding of the embodiments of the present application. However, it will be apparent to one skilled in the art that the present application may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present application with unnecessary detail.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

For the sake of simplicity, the drawings only schematically show the parts relevant to the present invention, and they do not represent the actual structure as a product. In addition, in order to make the drawings concise and understandable, components having the same structure or function in some of the drawings are only schematically depicted, or only one of them is labeled. In this document, "one" means not only "only one" but also a case of "more than one".

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

In particular implementations, the terminal devices described in embodiments of the present application include, but are not limited to, other portable devices such as mobile phones, laptop computers, family computers, or tablet computers having touch sensitive surfaces (e.g., touch screen displays and/or touch pads). It should also be understood that in some embodiments the terminal device is not a portable communication device, but is a desktop computer having a touch-sensitive surface (e.g., a touch screen display and/or touchpad).

In the discussion that follows, a terminal device that includes a display and a touch-sensitive surface is described. However, it should be understood that the terminal device may include one or more other physical user interface devices such as a physical keyboard, mouse, and/or joystick.

The terminal device supports various applications, such as one or more of the following: a drawing application, a presentation application, a network creation application, a word processing application, a disc burning application, a spreadsheet application, a gaming application, a telephone application, a video conferencing application, an email application, an instant messaging application, an exercise support application, a photo management application, a digital camera application, a digital video camera application, a Web browsing application, a digital music player application, and/or a digital video player application.

Various applications that may be executed on the terminal device may use at least one common physical user interface device, such as a touch-sensitive surface. One or more functions of the touch-sensitive surface and corresponding information displayed on the terminal can be adjusted and/or changed between applications and/or within respective applications. In this way, a common physical architecture (e.g., touch-sensitive surface) of the terminal can support various applications with user interfaces that are intuitive and transparent to the user.

In addition, in the description of the present application, the terms "first", "second", and the like are used only for distinguishing the description, and are not intended to indicate or imply relative importance.

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will be made with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort.

The present invention provides a radiation air-conditioning control system, an embodiment of which is shown in fig. 1, and the radiation air-conditioning control system of the present embodiment includes: a radiation air-conditioning system control panel 100, a fresh air machine control panel 300, a temperature controller assembly 200, a gateway device 400 and an indoor central control screen 500; wherein the content of the first and second substances,

the radiation air-conditioning system control panel 100 is used as a main node and is connected with the temperature controller assembly 200 and the fresh air fan control panel 300 to form a radiation air-conditioning local control network;

the gateway device 400 is used as a main node and is respectively connected with the radiation air-conditioning system control panel 100 and the indoor central control screen 500 to form a radiation air-conditioning intelligent control network;

the radiation air conditioner local control network and the radiation air conditioner intelligent control network are mutually independent.

Generally, a radiation air conditioning system includes a radiation air conditioning control system and a radiation air conditioner; the radiation air conditioner includes but is not limited to hydraulic module, fresh air blower, humidifier, exhaust blower and other devices, and each household radiation air conditioning system may also have a plurality of hydraulic modules, humidifiers, fresh air blower, exhaust blower and other devices. The user generally inputs a control instruction through the control terminal, and the control terminal transmits the acquired control instruction to the radiation air-conditioning system control panel, so that the radiation air-conditioning system control panel controls the corresponding radiation air conditioner.

In addition, it should be noted that, in the radiation air-conditioning system, various devices (such as a hydraulic module, a temperature controller, a fresh air blower control panel, an exhaust fan, a humidifier, etc.) which need to be in communication connection with the radiation air-conditioning system control panel may adopt various connection modes, for example, each device may be connected in series and then connected to the radiation air-conditioning system control panel, each device may be connected to the radiation air-conditioning system control panel (star connection), or the series connection and the star connection may be combined, for example, any one of the devices is selected to be connected to the radiation air-conditioning system control panel, and other devices are connected to the selected device in a star manner.

Specifically, the radiation air-conditioning control system of this embodiment includes two sets of radiation air-conditioning control networks, one set is a radiation air-conditioning intelligent control network, a user can operate and control the radiation air-conditioning system on the temperature controller assembly 200 (for example, a sub-temperature controller for controlling the radiation air-conditioning of each room, or a main temperature controller for controlling all the radiation air-conditioning in a room), an operation instruction thereof is transmitted to the radiation air-conditioning system control board 100 and the fresh air machine control board 300, and then the radiation air-conditioning system control board 100 adjusts and controls the corresponding radiation air-conditioning, and the fresh air machine control board 300 also controls the fresh air machine accordingly. For example, a user operates the temperature controller assembly 200 to turn on the air conditioner and the fresh air blower; then, after the temperature controller assembly 200 obtains the operation instruction of the user, the operation instruction is transmitted to the radiation air-conditioning system control panel 100, the radiation air-conditioning system control panel 100 opens the corresponding radiation air conditioner according to the instruction for opening the air conditioner, the radiation air-conditioning system control panel 100 also transmits the operation instruction for opening the fresh air machine to the fresh air machine control panel 300, and the fresh air machine control panel 300 opens the electrically connected fresh air machine after receiving the control instruction for opening the fresh air machine. Of course, the temperature controller assembly 200 may directly send the operation command related to the operation of the new blower to the new blower control board 300, and the rest of the operation commands related to the radiant air conditioner may be sent to the radiant air conditioning system control board 100.

Another set of radiation air-conditioning control network is a radiation air-conditioning intelligent control network, in which a user can control a radiation air-conditioning system on the indoor central control screen 500, after the indoor central control screen 500 collects a control instruction input by the user, the control instruction is transmitted to the radiation air-conditioning system control panel 100, and the radiation air-conditioning system control panel controls the corresponding radiation air-conditioning system according to the control instruction. On the indoor central control screen 500, the user can control or set the radiation system and the fresh air machine. For example, the in-home screen 500 may provide system context control including a home mode, a guest mode, a sleep mode, a away-from-home mode, and a vacation mode. And under different scene modes, different fresh air and radiation system parameter settings are provided. In addition, the intelligent control network of the radiation air conditioner solves the problems that the traditional radiation air conditioner system is long in feedback time and poor in user interaction experience. The positive feedback response of the system is realized, thereby providing a more fitting, comfortable and adaptive living environment for the user.

In this embodiment, the local control network of the radiant air conditioner and the intelligent control network of the radiant air conditioner are independent from each other and do not affect each other, and when a control terminal (the temperature controller assembly 200 or the indoor central control screen 500) of any party fails, the operation of the other control network is not affected, and further, the basic operation of the radiant air conditioner system is not affected.

In another embodiment of the present invention, the gateway device 400 in the above embodiment is integrated into the indoor central control panel 500, that is, the indoor central control panel 500 has a gateway function, and the indoor central control panel 500 can be used as a master node to connect to the radiation air conditioning system control panel 100, as shown in fig. 2 (the gateway device 400 is integrated into the indoor central control panel 500, which is not shown in the figure). Thus, two paths of Modbus protocol networking are still adopted in the embodiment. A radiation air conditioner local control network, which takes a radiation air conditioner system control panel 100 as a main node and is connected with a room temperature controller and a fresh air machine control panel 300 in series; the intelligent control network of the radiation air conditioner uses the indoor central control screen 500 as a main node and is connected with the control panel 100 of the radiation air conditioner system in series. By adopting the control mode of the embodiment, even if the indoor central control screen 500 fails and cannot control the radiation air conditioner, the local control network of the radiation air conditioner cannot be influenced, so that a user can operate on the temperature controller assembly 200 (a main temperature controller or a sub temperature controller) to control the corresponding radiation air conditioner, and the whole operation of the radiation air conditioner system cannot be influenced.

In another embodiment of the present invention, based on any one of the above embodiments, as shown in fig. 3, the radiation air-conditioning control system further includes: an indoor router 600, an intelligent terminal 700; the intelligent terminal 700 establishes wireless communication connection with the radiation air-conditioning system control panel 100 through the indoor router 600 and the gateway device 400, and forms a remote control network of the radiation air-conditioning system.

In this embodiment, the remote control network of the radiation air-conditioning system is added, so that a user can remotely control the radiation air-conditioning system at an intelligent terminal, and the control mode is more flexible and convenient. Even if the user is not at home, the radiation air conditioner at home can be remotely controlled, for example, if the user forgets to turn off the radiation air conditioner when going out, the user can operate on the corresponding APP on the mobile phone, and the radiation air conditioner turned on at home is remotely turned off. For example, when the user goes out to home, the user can feel comfortable temperature when the user wants to go home, and then the user can remotely turn on the radiation air conditioner on the mobile phone in advance to set the temperature to be reached, so that the user can feel more comfortable when the user goes home. This embodiment has promoted user experience greatly on the basis that the flexible operation is convenient.

In any of the above embodiments, the thermostat assembly includes: at least one main temperature controller and/or a plurality of branch temperature controllers; wherein, each sub-temperature controller controls the temperature and/or humidity of the radiation air conditioner in the area where the sub-temperature controller is located; the main temperature controller is used for controlling the working modes of the fresh air machine and the indoor radiation air conditioner. Specifically, for example, each room is provided with a sub-temperature controller, and a user can control the sub-temperature controller of the room to adjust and control the temperature, humidity, and the like of the room. The main temperature controller can be used for controlling the cooling, heating, ventilating or dehumidifying modes of the indoor radiation air conditioner, and a user can adjust the temperature and the humidity of a room where the user is located and adjust the air volume of a whole-house fresh air fan on the main temperature controller. Certainly, the number of the main temperature controllers can be determined according to the situation, and in a common house, only one main temperature controller is arranged in each family; for some single houses, such as villas and the like, a plurality of main temperature controllers can be arranged, such as a main temperature controller arranged on a building to control the working mode of a radiation air conditioner on the building; and each room upstairs can also be provided with a sub-temperature controller for controlling the temperature, the humidity and the like of the radiation air conditioner of the room; similarly, a main temperature controller can be arranged under the building to control the working mode of the radiation air conditioner under the building, sub-temperature controllers can be arranged in each room under the building according to the actual condition, and each sub-temperature controller controls the temperature, the humidity and the like of the radiation air conditioner in the room where the sub-temperature controller is arranged.

The connection form of the plurality of sub-thermostats and the main thermostat in the thermostat assembly 200 and the radiant air conditioning system control panel 100 is not limited, and may be implemented in various ways. Specifically, if only the main thermostat is provided, it can be directly connected to the radiant air conditioning system control panel 100, and if there are sub thermostats, as shown in fig. 4a, a plurality of sub thermostats can be connected in series and then connected to the radiant air conditioning system control panel 100 through the main thermostat 210. By adopting the mode, the indoor connection circuit is greatly simplified, the circuit complexity is reduced, and the indoor design is beautified.

Of course, other connection manners may be adopted, for example, as shown in fig. 4b, a main thermostat and a plurality of sub thermostats are respectively connected to the radiant air conditioning system control panel 100; or as shown in fig. 4c, after the plurality of sub-thermostats are respectively connected to the main thermostat 210, the main thermostat 210 is connected to the radiant air conditioning system control panel 100. By adopting the star-shaped connection mode, the system performance is enhanced, and the operation of other parts cannot be influenced when any branch temperature controller fails or a link connected with the branch temperature controller fails in communication.

In another embodiment of the present invention, on the basis of any one of the above embodiments, the local control network for radiant air conditioners further includes: a multi-parameter sensor; wherein: the radiation air conditioner local control network takes the radiation air conditioner system control panel as a main node and is connected with the temperature controller assembly, the fresh air fan control panel and the multi-parameter sensor in series.

Specifically, in this embodiment, a multi-parameter sensor is added. The multi-parameter sensors can be arranged indoors, and the number of the multi-parameter sensors is not limited, so that environmental state data can be collected, and the control panel of the radiation air-conditioning system can be controlled more intelligently. Of course, the multi-parameter sensor can also be arranged on other equipment, such as a fresh air machine or a radiation air conditioner.

In another embodiment of the present invention, based on the above embodiments, the radiant air conditioning system control board may be integrated into a corresponding radiant air conditioning system device in the indoor, and specifically, as shown in fig. 5, 6 and 7, the radiant air conditioning system control board is integrated into the fresh air fan control board 300, the gateway device 400 and the main thermostat 210 respectively.

Of course, the connection relationship between the respective devices in the radiation air-conditioning system can be freely set according to the custom or the actual arrangement. The main connection mode is three, one is that all the devices in the radiation air-conditioning system are connected in series, and then any one of the devices is connected with the control panel of the radiation air-conditioning system. The second way is that all the devices in the radiation air-conditioning system are directly connected with the control panel of the radiation air-conditioning system. In addition, the two connection modes can exist simultaneously, namely, a part of the equipment is connected in series, a part of the equipment is connected in a star shape, and only the fact that information communication between each equipment in the radiation air-conditioning system and the control panel of the radiation air-conditioning system can be achieved is required to be guaranteed.

The conventional radiant air conditioning system control panel 100 is generally disposed in the outdoor hydraulic module 800, and in this embodiment, the radiant air conditioning system control panel 100 is movably integrated with the indoor fresh air blower control panel 300, the gateway device 400, or the main temperature controller 210, so that the operation stability and safety of the system are greatly improved, the control hardware specifications of each device are more flexibly configured, and the system cost is optimized.

In addition, the invention also discloses a control method of the radiation air-conditioning system, which is applied to the radiation air-conditioning control system of any embodiment, and the control method of the radiation air-conditioning system comprises the following steps: a radiation air conditioner local control method and a radiation air conditioner intelligent control method; wherein:

the local control method of the radiation air conditioner, as shown in fig. 8a, includes:

s101, a temperature controller component acquires a control instruction input by a user and transmits the control instruction to a control panel of the radiation air-conditioning system; specifically, the temperature controller component comprises a main temperature controller and/or a branch temperature controller; the user may perform a control operation on the thermostat, for example, turning off the radiant air conditioner.

S102, after the control instruction is received by the radiation air-conditioning system control panel, controlling a radiation air-conditioning system according to the control instruction; specifically, for example, after the control panel of the radiation air conditioner system receives a control command for turning off the radiation air conditioner, the control panel of the radiation air conditioner system performs a turning-off operation on the corresponding radiation control.

The intelligent control method of the radiation air conditioner, as shown in fig. 8b, comprises the following steps:

s201, the indoor central control screen receives an intelligent control instruction input by a user and transmits the intelligent control instruction to the control panel of the radiation air-conditioning system; specifically, for example, when the user inputs 6 pm and the indoor temperature reaches 22 degrees, the indoor central control screen receives the intelligent control instruction and then sends the instruction to the radiant air-conditioning system control panel;

s202, the radiation air-conditioning system control board analyzes the intelligent control instruction and determines working parameters of the radiation air-conditioning system; specifically, after receiving a control instruction of a user, a control panel of the radiation air-conditioning system analyzes the control instruction, for example, the current control instruction is 6 pm, the indoor temperature reaches 22 ℃, after analysis, it is determined that the purpose is to be achieved, the radiation air-conditioning system needs to be started at half 5 pm, and the temperature of the radiation air-conditioning system is set to 22 ℃; the analysis then determines the operating parameters of the radiant air conditioning system: for example, half-on the radiant air conditioning system at 5 pm, set the temperature to 22 degrees, turn on the fresh air machine, and the like.

And S203, the radiation air-conditioning system control board performs corresponding parameter setting on the radiation air-conditioning system according to the working parameters. Specifically, after the radiation air-conditioning system control panel determines the working parameters of the radiation air-conditioning system to be set, the corresponding setting can be performed accordingly. For example, at half 5 pm, the radiation air conditioning system is automatically turned on, and the temperature of the radiation air conditioning system is set to 22 ℃.

In addition to the method steps of the above embodiment, the intelligent control method of the radiation air conditioner of the present invention can also perform intelligent control in any one or more of the following ways:

(1) intelligent system scene control mode:

the indoor center screen provides various system context modes such as a home mode, a guest mode, a sleep mode, a away mode, a vacation mode, and the like. And under different scene modes, different fresh air and radiation system parameter settings are provided. After a user selects a system scene on an indoor central control screen or a mobile terminal, the indoor central control screen or the mobile terminal transmits the system scene selected by the user to a radiation air-conditioning system control panel; the radiant air-conditioning system control panel searches parameter setting of the radiant air-conditioning system corresponding to the corresponding system scene according to the system scene control instruction; and the radiation air-conditioning system control panel performs corresponding parameter setting on the radiation air-conditioning system according to the searched parameter setting of the radiation air-conditioning system.

(2) Intelligent remote control mode:

the intelligent terminal receives a control instruction input by a user and transmits the control instruction to the radiation air-conditioning system control panel through a wireless network; and after the control command is received by the radiation air-conditioning system control panel, executing the control command. Specifically, the user can remotely control the radiation air conditioning system in the home through an intelligent terminal, such as a mobile phone, an IPAD, or an intelligent sound box and a bracelet.

(3) According to the intelligent control mode of the travel:

the intelligent terminal acquires the travel information of a user and acquires the leaving time and the arriving time of the user according to the travel information; the intelligent terminal sends the leaving time and the arriving time of the user to the radiation air-conditioning system control panel; and the radiation air-conditioning system control panel intelligently controls the radiation air-conditioning system according to the leaving time and the arriving time of the user. Specifically, the schedule of the mobile phone or the computer can be manually set by a client or automatically read by a mobile terminal, and the information of leaving and returning of the user is obtained, so that the system can be pre-cooled or pre-heated in advance. For example, the user schedule displays that 7 months, 11 days to 16 days are business hours, and the client 16 day return ticket arrives at the airport at 17 pm. The system can automatically switch to the leaving mode after the client leaves home in 11 days and switch to the returning mode at 15 points in 16 days according to the information; while different modes correspond to different operating parameters of the radiant air conditioning system.

(4) Self-learning intelligent control:

a control panel of the radiation air-conditioning system counts historical usage records of a user on the radiation air-conditioning system; the radiation air-conditioning system control panel learns the historical usage record and obtains the usage habits of the user; the radiation air-conditioning system control panel intelligently controls the radiation air-conditioning system according to the use habits of the user. Specifically, the radiation air conditioner control system has a self-learning function, and indoor parameter setting can be continuously optimized according to the use habits of customers. For example, the system learns that the user often manually raises the indoor set temperature after a period of time at home. Therefore, the intelligent system can automatically and smoothly adjust the temperature set value, avoid manual operation after discomfort of a user, and simultaneously realize automatic energy conservation.

(5) Prediction intelligent control:

the control panel of the radiation air-conditioning system acquires weather forecast information through the intelligent terminal; the radiation air-conditioning system control panel generates a pre-cooling/pre-heating instruction of the radiation system according to the weather forecast information and the use habits of the user; and the radiation air-conditioning system control panel starts the radiation air-conditioning system in advance for precooling/preheating according to the precooling/preheating instruction. Specifically, the radiation air-conditioning control system has a load prediction function, and system behaviors are determined in advance according to the forecast of outdoor meteorological parameters and the historical behavior habits of users. For example, the system may predict that 6 pm is the user's time to return home, and a weather forecast shows that there is a heavy rain in the afternoon. The system can automatically start a new fan dehumidification mode in advance before a user goes home, and provides a dry and comfortable indoor environment for the user.

(6) Linkage intelligent control of intelligent house:

the method comprises the steps that a radiation air-conditioning system control panel obtains the current working state of the smart home; the radiation air-conditioning system control panel acquires the current state information of a user according to the current working state of the smart home; and the radiation air-conditioning system control panel intelligently controls the radiation air-conditioning system according to the current state information of the user. Smart homes include, but are not limited to, curtains, lights, mattresses, toilets, door locks, and the like. For example, the intelligent system knows from the intelligent mattress that the user has entered a deep sleep state and has a low body temperature, so that the system controls radiation and the temperature of fresh air to rise moderately, and a more appropriate sleep environment is created for the user.

Finally, the present invention also discloses a storage medium, wherein the storage medium stores a plurality of instructions, and the plurality of instructions are executed by one or more processors to implement the steps of the control method of the radiation air conditioning system according to any embodiment of the present invention, and in particular, the method comprises the intelligent control method of the radiation air conditioning system according to the embodiment of the method.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. A control method of a radiation air-conditioning system is characterized by being applied to the radiation air-conditioning control system and comprising the following steps: a radiation air conditioner local control method and a radiation air conditioner intelligent control method; wherein:

the radiation air-conditioning control system comprises: the system comprises a radiation air-conditioning system control panel, a fresh air machine control panel, a temperature controller assembly, gateway equipment, an indoor central control screen, an indoor router and an intelligent terminal; wherein the content of the first and second substances,

radiation air conditioner control system adopts two way Modbus protocol network deployment, includes:

the radiation air-conditioning system control panel is taken as a main node and is connected with the temperature controller assembly and the fresh air fan control panel to form a radiation air-conditioning local control network;

the gateway equipment is taken as a main node and is respectively connected with the radiation air-conditioning system control panel and the indoor central control screen to form a radiation air-conditioning intelligent control network;

the radiation air-conditioning system control panel is integrated on the fresh air fan control panel, the gateway equipment or a main temperature controller in the temperature controller component indoors;

the radiation air conditioner local control network and the radiation air conditioner intelligent control network are mutually independent;

the intelligent terminal establishes wireless communication connection with the radiation air-conditioning system control panel through the indoor router and the gateway equipment to form a remote control network of the radiation air-conditioning system;

the local control method of the radiation air conditioner comprises the following steps:

the temperature controller component acquires a control instruction input by a user and transmits the control instruction to the radiation air-conditioning system control panel;

after the control instruction is received by the radiation air-conditioning system control panel, controlling the radiation air-conditioning system according to the control instruction;

the intelligent control method of the radiation air conditioner comprises the following three intelligent control modes:

the first intelligent control mode:

the indoor central control screen receives an intelligent control instruction input by a user and transmits the intelligent control instruction to the radiation air-conditioning system control panel;

the radiation air-conditioning system control panel analyzes the intelligent control instruction and determines working parameters of the radiation air-conditioning system;

the radiation air-conditioning system control panel performs corresponding parameter setting on the radiation air-conditioning system according to the working parameters;

the second intelligent control mode is as follows:

the intelligent terminal receives a control instruction input by a user and transmits the control instruction to the radiation air-conditioning system control panel through a wireless network;

after the control instruction is received by the control panel of the radiation air-conditioning system, the control instruction is executed;

the third intelligent control mode:

the intelligent terminal acquires the travel information of a user and acquires the leaving time and the arriving time of the user according to the travel information;

the intelligent terminal sends the leaving time and the arriving time of the user to the radiation air-conditioning system control panel;

and the radiation air-conditioning system control panel intelligently controls the radiation air-conditioning system according to the leaving time and the arriving time of the user.

2. The control method of a radiant air conditioning system as claimed in claim 1, wherein the intelligent control command is a system context control command; the radiation air-conditioning system control panel analyzing the intelligent control instruction and determining the working parameters of the radiation air-conditioning system specifically include:

the radiation air-conditioning system control panel searches parameter setting of the radiation air-conditioning system corresponding to the corresponding system scene according to the system scene control instruction;

and the radiation air-conditioning system control panel performs corresponding parameter setting on the radiation air-conditioning system according to the searched parameter setting of the radiation air-conditioning system.

3. The control method of a radiation air conditioning system as claimed in claim 1, wherein the intelligent control method of a radiation air conditioner further comprises:

the control panel of the radiation air-conditioning system counts the historical usage record of the radiation air-conditioning system by a user;

the radiation air-conditioning system control panel learns the historical usage record and obtains the usage habits of the user;

the radiation air-conditioning system control panel intelligently controls the radiation air-conditioning system according to the use habits of the user.

4. The control method of a radiation air conditioning system as claimed in claim 1, wherein the intelligent control method of a radiation air conditioner further comprises:

the control panel of the radiation air-conditioning system acquires weather forecast information through the intelligent terminal;

the radiation air-conditioning system control panel generates a pre-cooling/pre-heating instruction of the radiation air-conditioning system according to the weather forecast information and the use habits of the user;

and the radiation air-conditioning system control panel starts the radiation air-conditioning system in advance for precooling/preheating according to the precooling/preheating instruction.

5. A control method of a radiation air-conditioning system according to any one of claims 1 to 4, characterized in that the control system of the radiation air-conditioning system is further in wired and/or wireless communication connection with a smart home; the intelligent control method of the radiation air conditioner further comprises the following steps:

the radiation air-conditioning system control panel acquires the current working state of the smart home;

the radiation air-conditioning system control panel acquires the current state information of a user according to the current working state of the smart home;

and the radiation air-conditioning system control panel intelligently controls the radiation air-conditioning system according to the current state information of the user.

6. The method of claim 1, wherein said gateway device is integrated into said indoor central control panel.

7. The control method of a radiation air conditioning system according to claim 1, wherein the thermostat assembly in the radiation air conditioning system comprises: at least one main temperature controller and/or a plurality of branch temperature controllers; wherein, each sub-temperature controller controls the temperature and/or humidity of the radiation air conditioner in the area where the sub-temperature controller is located; the main temperature controller is used for controlling the working modes of the fresh air machine and the indoor radiation air conditioner.

8. The method of claim 7, wherein the sub-temperature controllers are connected to the main temperature controller, or connected to the main temperature controller after being connected in series;

and the main temperature controller is connected to the radiation air-conditioning system control panel.

9. A storage medium storing a plurality of instructions for execution by one or more processors to perform the steps of the method of controlling a radiant air conditioning system as claimed in any one of claims 1 to 5.

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